Time-of-day restrictive service



c. E. LOMAX TIME-OF-DAY RESTRICTIVE SERVICE May 18, 1954 4 Sheets-Sheet 2 Filed June 21, 1950 mhN Pd muwm ONN j 3% 26 BE 51 NEE 00w KOhUm EW INVENTUR. CLAENGE E. LOMAX ATTURNEY May 18, 1954 c. E. LOMAX TIME-OF-DAY RESTRICTIVE SERVICE 4 Sheets-Sheet 3 Filed June 21, 1950 92. Ema mmmfi n or. IE N @E 5m I I I I I I I I- mm Em. mmm lllflo m ma mom mohowdw n V BE mm :a mom EEEEEE .3 CNN mom 1% Nun ||L wmzotaw mormofi ATTORNEY May 18, 1954 Filed June 21, 1950 4 Sheets-Sheet 4 "rows CONTROL CERCUIT INVENTOR. CLARENCE E. LOMAX ATTORNEY Patented May 18, 1954 UNITE.

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TIME-OF-DAY BESTRICTIVE SERVICE Application June 21, 1950, Serial No. 169,4 5

8 Claims. i

This invention relates in general to telephone systems and more particularly to telephone systems which utilize restricted service, that is, where certain subscribers are prevented from establishing certain telephone connections.

The number of switches required in an automatic telephone exchange to give proper service is determined in part by the number of calls made during the busy hour or hours of the day. The generally accepted formula is that oneeighth of the total twenty-four hour daily load is carried during the one busiest hour of the day. If a certain percentage of the subscribers in theexchange could be prevented from making any local calls during those busy periods, even though these restricted subscribers were unrestricted during other periods of the day, the result would be a substantial reduction in the number of switches required to give proper serv ice to the unrestricted lines in the exchange.

It might be considered an advantage to restrict inter-ofiice connections attempted to be established from certain lines while intra-oflice calls. established from these same lines would not be restricted.

It would also be advantageous to provide that the restricted service equipment be under the control of an operator under various circumstances or that it be responsive to actual trafiicl conditions of the system occurring during the day. It is with these foregoing facts in mind that this invention was conceived.

One object of th'm invention is to provide restricted service, controlled in first selectors or in inter-ofiice repeaters, to certain subscribers lines having access to the first selector or repeater, the restriction equipment tobe operative only on local calls or only on toll calls and then only during normally busy periods of the day.

Another object of this invention is to provide restricted service equipment which is operative only during normally busy periods of the day and then only when an operator desires to ren der it operative.

Another object of this invention is to provide restricted service equipment which is operative only during normally busy periods of the day and then only if heavy traflic conditions warrant restriction of calls.

Another object of this invention is to provide restricted service equipment which is operativeonly during normally busy periods of the day and then only when an operator desires to render it operative or only when heavy trailic conditions warrant restriction of calls, provision being made that once the restricted service equipment operates, subsequent action by the operator or subsequent ohanges in trafiio conditions will not cause a cessation in operation of the restricting equipment until the end of the normally busy period.

Another object of this invention is to provide restricting equipment for use in restricting calls from subscribers lines which is operative during the normally busy hour or peak load periods of the day in all instances but which may be disabled during any part of the normally busy period by an operator at her discretion.

Another object of this invention is to provide call restricting equipment which will operate to restrict a call during normally busy hour or peak load periods of the day and which may also be controlled by an operator to be operative at any other period of the day that the operator may desire.

The invention will appear more clearly, and further objects will become apparent, from the following detailed description when taken in connection with the accompanying drawings, showing by way of example, a preferred embodiment of the inventive idea.

Figs. 1, 2, 3, 3A to 31'.) inclusive and 4 depict a telephone system which best illustrates the present invention, a system showing a number of control circuits associated with restricted service equipment for preventing the establishment of telephone connections from subscribers lines at various times and under various conditions.

More specifically, Fig. 1 illustrates a line finder circuit Hill! and associated distributor and group relays I32, the finder having access to a plurality of subscribers lines represented by lines it! and l at, the finder being of the well-known Strowger type and designed to provide restricted service to certain of the subscribers lines. The finder of Fig. 1 may be associated with either the selector of Fig. 2 or the selector of Fig. 3.

Fig. 3 illustrates a selector circuit associated with the finder of Fig. 1 and a repeater circuit for enabling a subscriber to complete inter-ofiice connections, the repeater being designed to provide restricted service.

Fig. 2 illustrates a selector switch of the Strowger type associated with the line finder of Fig. 1 for establishing local and toll connections and designed to give restricted service to local calls and unrestricted service to toll calls.

Figs. 3A to 3D inclusive show various control meansv associated with the finder circuit and used to enable the restricted service equipment during certain preselected periods of the day and to disable it during other periods of the day.

Fig. 4 illustrates a control circuit for enabling a distant operator or a local operator to exert in-- fiuence over certain of the restricted service control means.

Referring now to Figs. 1 and 2, I will first describe the circuit operations involved in establishing a call through the finder I and selector 200 from the unrestricted subscribers line I03.

When the subscriber at the calling substation B initiates a call over the line I03, the line circuit I04 operates to connect battery potential to the control conductor III to mark the rotary posi tion of line I03 in the bank of the finder switch I00, and to ground the control conductor I I9 to thereby cause ground potential to be applied to the start conductor I8I extending to the distributor and group relays I82 and to also cause the ground potential to mark, in the vertical bank of the finder switch, the level wherein line I03 is terminated, the vertical contact in this case being indicated at H2.

The ground closed to the control conductor I I9 and thus to the start conductor IOI initiates operation of the distributor and group relays I82, thereby to cause this preseletced idle finder I00 to be assigned to the use of the calling sub scriber line I03. The distributor and group relays I82 are similar to and operate in a similar manner to those shown in the Patent 2,214,908 of Lomax and Baker, September 17, 1940, and reference may be had to this patent for a more detailed understanding of the operation or the distributor and group relays. A line circuit similar to I04 is also shown in the above patent. More particularly, distributor and group relays I82 operate to place ground potential on finder start conductor I10 and ground potential on vertical conductor I10. Ground potential on conductor I18 causes start relay I60 to operate. Relay I 60 on operating closes a path between line conductors I10 and HI by way of contacts I and resistance I42 to seize the selector circuit 200 in Fig. 2, closes the circuit from the rotary magnet I40 to the distributor and group relays I82 by way of contacts I28 and I 65 and rotary conductor I11, and closes the circuit from vertical conductor I to the finder vertical magnet I30 through contacts I00. Operation of relay I also opens a point in the all trunks busy circuit to the distributor and group relays $82 at contacts I53 to give an all trunks busy signal if this was the last idle finder in the group associated with the distributor.

The ground potential on the vertical conductor I12 causes the vertical magnet I30 to operate to step the Strowger switch mechanism one step in the vertical direction and to connect, at contacts 5 3i, ground to interrupt conductor 530. The ground connected to interrupter conductor I80 causes the distributor and group relays I82 to operate to remove the ground from vertical conductor I19 to cause the vertical magnet I30 to restore, removing the ground at contacts I3I from conductor I80. The removal of ground from conductor I 80 causes the distributor and group relays I32 to operate to reconnect ground to vertical conductor I19 to again cause the vertical magnet I 30 to operate to step the I Strowger switch mechanism an additional step in the vertical direction and to re-connect ground to conductor I80 by way of contacts I35. The above cycle of operations is continued, the vertical magnet I30 and the distributor and group to connect, at contacts relays I82 interacting, to step the switch mecha nism in a vertical direction until the vertical wiper I I1 engages the contact in the verti al contacts associated therewith having marking ground potential thereon. In the present instance, the vertical wiper II1 engages contact II2 having the marking ground potential thereon. This ground on conductor II9 from the line circuit I04 is closed through bank contact H2 and wiper II1 to the distributor I82 by way of test conductor I10 and causes the distributor and group relays I82 to operate to remove the ground from vertical conductor I19 so that the vertical magnet I30 will restore and also to connect ground on rotary conductor I11.

It is noted that when the switch mechanism of the finder I00 is operated away from its normal position by the first operation of the vertical magnet I30, the vertical off-normal switch springs I50 are actuated. On closing, the V. O. N. springs I50 close a point in the incomplete circuit to the release magnet M5 at contacts I52, open a point at contacts I5I in the all trunks busy circuit, close ground to the incomplete guard circuit at contacts I53, and disconnect the C lead I69 from the guard circuit at contacts I54.

The ground on rotary conductor I11 from the distributor and the group relays I02 is closed to the rotary magnet E40 by way of contacts I28 and I55. When energized over the above traced circuit, the rotary magnet I40 operates to step the Strowger switch mechanism of the finder switch I00 one step in the rotary direction and I4I, ground to interrupter conductor I80. This ground on conductor I causes the distributor and group relays I32 to operate to disconnect the ground from rotary conductor I11 to thereby cause the rotary magnet I40 to restore. Upon restoring, the rotary magnet I40 removes ground, at contacts I II, from interrupter conductor I80 to cause the distributor and group relays I82 to operate to reconnect ground to rotary conductor I11 and thus reenergize the winding of the rotary magnet I40. The rotary magnet I40 operates to cause the switch mechanism to take an additional step in the rotary direction and to reconnect ground to interrupter conductor I80. The rotary magnet I40 and the distributor and group relays I82 continue to interact in the manner described above until the switch mechanism is rotated to the position of the contact set terminating the calling subscriber line I3, at which time the wiper N5 of the wiper set engages the contact terminating the control conductor III of line I03, whereupon a circuit is completed from battery through the well-known B. C. O. relay not shown) in the line circuit I04 to the distributor and group relays I32 by way of control conductor III, wiper I I5, and first test conductor I14. The distributor and group relays I82 operate to open the circuit to the rotary magnet I40 over rotary conductor I11 and close ground to the conductor I13. Ground on the conductor I13 operates relay I20. Relay I20 on operating opens further points in the circuits to the rotary and release magnets at contacts I28 and E21 respectively, closes a holding circuit to itself from ground on the C lead I00 from the selector 200 by way of contacts I24, closes the line conductors I09 and H0 to the selector circuit 200 at contacts I2I and I22, closes the ground on control conductor I69 to wiper I I5 and control conductor III by way of contacts I25 to operate the B. C. O. relay in the line circuit, and closes ground by way of V. O. N. spring contacts I53, contacts I26 and contacts I58, and guard conductor I15 to the distributor and group relays I82. This ground closed to the guard conductor I15 causes the release of the distributor and group relays I 02 which then operate to locate the next idle finder circuit available to the distributor in accordance with the preselecting feature of this line finder system and also marks this finder I busy to the distributor during subsequent selecting operations of the distributor while searching for idle finders in the same group of finders. Upon the release of the distributor and group relays I82, ground is removed from start conductor I18 causing relay I60 to restore. Relay I 00 opens the first mentioned path between line conductors I and HI at contacts I5I, closes an alternate path at contacts I52 for applying the busy marking ground potential to guard conductor I from ground at contacts I53, and opens points in the circuits to the ver tical magnet I30 and rotary magnet I40 at contacts I65 and IE5 respectively. Since line I03 is an unrestricted line, the extra control contact I29 associated with this line in the banks of the finder switch is standing unconnected.

Referring now to Fig. 2, the selector circuit 200 is seized by the finder circuit I00 when the line loop was closed to the two windings of relay 230 by way of contacts IBI. Relay 230 on operating closes relay 240 by way of contacts 22! and 23I. Relay 240 operates, closes relay 235 to the E. C. conductor by way of contacts, 242, closes ground to relay 2I0 by way of contacts MI and closes a circuit to the upper winding of relay 250 by way of contacts 246, 262 and 264. Relay 235 remains unoperated and performs no function on unrestricted calls, wiper N6 of the finder E00 having encountered no ground potential. Relay 250 operates, prepares the pulsing circuit to the vertical magnet 251 at contacts 25I, closes the time pulse conductor 215 to the upper winding of relay 260 by way of cam spring contacts 21I and contacts 254, and closes the battery through the rotary magnet 258 and contacts 255 to the Supy. conductor. This battery on the Supy. lead will cause an alarm to be given and a timed release of this circuit to take place should the calling party fail to dial within a certain time interval. On operation of relay I in finder I00, the dial tone connected to the side of the line by way of cam springs 214 and the lower winding of relay 230 is closed through to the subscribers receiver circuit.

At this time the distributor and group relays I82 have been released, the finder I00 is being held under control of the selector 200 from ground at contacts 245 of relay 240 on the control conductor I59, the selector 250 in turn being held by the subscriber over the line loop, and selector 200 is now ready to receive impulses from the calling subscriber substation B to establish a connection to a called subscriber substation or a toll position over a succeeding switch train in a well-known manner.

The selector 200 operates in response to the first series of impulses from the subscribers dialing device to select a group of outlets to succeed ing switches. More particularly, relay 250 follows the first series of impulses and when at normal opens the circuit to relay 240 at contacts 23I and closes the circuit to the lower winding of relay 250 and the vertical magnet 251 in parallel by way of contacts 221, 232, 243 and I.

6 The vertical magnet 251 follows the first series of impulses and steps the Strowger switch wipers to the dialled bank level. On the first vertical step of the shaft, the V. O. N springs operate and at contacts 264 open the circuit to the upper winding of relay 250. Relays 240 and 250, due to their slow release characteristics, remain operated during the first series of impulses, relay 250 being energized through its lower winding. After the first series of impulses, relay 230 remains steadily operated, opening the circuit to the lower winding of relay 250 and the vertical magnet at contacts 232. Relay 250 releases, opening the circuit to the Supy. conductor at contacts 55 to stop the timer and the alarm and closes a self-interrupting driving circuit to the rotary magnet 258 by way of contacts 256, 266, 268, 228, M2 and 245.

The rotary magnet operates, stepping the switch wipers to the first bank contacts in the selected bank level and opening its own circuit at contacts 260. If the succeeding switch connected to the first bank contacts is idle, battery will be standing on the C bank contact and relay 2I0 will operate by way of contacts 235 and MI over wiper 282 to stop the rotary stepping. If the succeeding switch connected to the first contacts is busy, the battery on the C contact will be absent and relay 2H! will not operate. In case of this busy condition, the rotary magnet will release, again closing the circuit to itself through contacts 258. The rotary magnet will operate to cause the switch wipers to take a second step and so on until a free succeeding switch is found. When relay 2H! operates on finding an idle succeeding switch, it opens the self-interrupting circuit to the rotary magnet 258 at contacts 2i 2 and closes the circuit to relay 220 at contacts 2! I. Relay 220 operates, closes the line loop at contacts 222 and 224 through to seize the succeeding switch, closes a holding circuit to itself from ground at contacts 246 by way of contacts 252 and 225, shunts relay 2H] at contacts 225, opens a point in the circuit to the rotary magnet at contacts 228, and opens the circuit to relay 240 at contacts 221. Relays 230, 2H] and 240 release. Before relay 240 has had time to release and remove the holding ground at contacts 240, the succeeding switch places ground on the C lead over wiper 282 to hold relay 220 by way of contacts 225 and 226. The selector 200 and finder I00 are held under control of the succeeding switch over the C lead, the succeeding switch in turn being held by the calling subscriber over the line loop. The call may be automatically completed to a local party or a toll position over the subsequent switch train.

If all the succeeding switches had been busy, the rotary magnet 258 would step the wipers to the 11th rotary position at which time the cam springs 215 would operate. Operation of the cam springs opens the time pulse conductor 215 to the upper winding of relay 250 at contact 2', closes the circuit to the upper winding of relay 250 by way of contacts 245, 2I2, 223 and 212, and connects busy tone to the side of the line from conductor 218 by way of contacts 238, 213 and the lower winding of relay 230 to indicate the busy condition to the calling subscriber. Relay 250 operates, prepares a circuit from ground at contacts 221 to the side of the line by way of contacts 262, and closes battery to the Supy. lead by way of contacts 255 to give an alarm should the calling party fail to release.

When the parties release from a completed 'callythegground is removed from .the c lead in the succeeding switches, opening theholding circuits to relay-22d in theselector, relay lit in the finder and the B. C. .O..relay'in the line circuit. The B. C. O. relay in the line circuit releases to release the line circuit. Relay 22% in the selector releases and closes the circuit to .the r.e- .lease magnet 259 by way of contacts 22?, .222, .24 5, 253 and 2 55. The release magnet 25.9 operates to return the selector switch mechanism to normal in a well-known manner. In the normal position, the switch mechanism releases .the V. O. springs which open the circuit to the release magnet a at contacts 255. The selector circuit is now at normal. Release of relay 1% in the finder circuit closes the circuit to the release magnet Hi5 atcontacts t2? byway ofcontacts IE2, 556 and l33,-th .release magnet operating to return the finder switch mechanism to normal. to normal, the V. O. N. springs I56 restore, opening the release magnet circuit at contacts I52, closing the all trunks busy circuit at contacts Hi, and removing ground from the guard conductor H5 at contacts l53 to marl: the finder circuit as idle to the distributor and group relays :32.

When the calling subscriber at B releases from an all trunks busy, the line loop is opened to relay 23c. Relay 23d releases, opening the circuit to relay it!) at contacts 23! and closing the circuit to the lower winding of relay 250 at contacts 232 by way of contacts 227, 2 33 and 255 to hold relay Z56 operated. Relay 2% releases, opens the circuit to the lower winding of relay 25 at contacts 253, opens the circuit to the upper winding of relay 253 at contacts 2% and closes ground to the side of the line by way of contacts 22?, 232, 244 and 252, relay Estremaining operated for a short period due to its slow release characteristics. The ground connected to the wiper is used to operate a meter for registering overflow calls it contacts on the 11th step of the wiper banks are provided for this service. Relay 25E releases, removes the ground from the line conductor at contacts 252 and closes the circuit to the release magnet 259 through contacts 253 by way of contacts 227, 232, 24 i and 265. The release magnet 259 operates to return the selector to normal, restoring the cam springs and the V. O. N. springs. Release of relay 255. also removed ground from the C lead at contacts 26 3, opening the circuit to relay lfiil in the fiinder see. Relay i211 releases to cause the finder we to return to normal in the same manner as previously described.

The selector 2% is provided with permanent lock-out, a feature which provides that this selector circuit will release the preceding finder I09 and itself if'the selector is not stepped offnormal within a predetermined time after seizure. It was noted that on seizure relay 25E! operated and closed. the time pulse conductor 215 to the upper winding of relay 2%? by way of contacts 2H and 25 3. If the subscriber dials within a certain period of time to step this selector oii-normal, relay 256 releases to open the circuit to the upper winding of relay 286 at contacts 254. But if the dialing party fails to dial within a predetermined length of time, the associated timing equipment will momentarily place ground on the time pulse lead 215 closing the circuit to the upper winding of relay 260. Relay 2% operates-connects the C lead to the ground and time cut-01f lead 283 at contacts 261, opens the circuit from ground at When the switch mechanism returns contacts V 2%" 3110 the C .lead :atcontacts .262, .and

Relay 236 releases to return the selector 200 to normal.

Having described-the circuit operation of this system for establishing a connection from a, calling subscribers line which .is not subject to restrictedservice at any time, I will now describe the circuit operation involved in establishing .a connection from a line which .is subject to restricted service at certaintimes of the day. Subscriber line 105 has been arranged so that itis subject to restricted service. The fourth bank contact m8 inthe finder banks which terminates the line circuit of l d i has been connected, through the line circuit, to conductor H8, conductor l8 being connectedtoone of the four control means, Figs. 3A to 3D inclusive.

Figs. 3A to 3D inclusive illustrate a plurality of common timer devices each consisting of a cam device or a combination of a cam device and a relay. The cams 350, 355, 358 and 352 are continuously rotating .cams which rotate at a speed of one revolution .every 24 hours. The cams are driven by a single synchronous motor (not shown) or they may be individually driven. As illustrated, they cause operation of their cam springs twice every 24 hours, the cams being replace-able so that any periods of the day may be chosen to close the cam springs. For thepurpose of this invention, these cams were designed to close their associated cam springs during the two usually busiest telephone traffio periods of the day. The relay 352 of Fig. 3B is controlled by a distant operatoror a local operator over the control switch of Fig. 4 or is controlled automatically by relay 356 which responds to trafiic conditions initiating a call, the line circuit :02 operates as previously explained to ground conductor H9 and to connect batter potential to the control conductor It? to mark the lines position in the bank of the finder. The distributor andgroup relays I82 and finder I operate exactly as previously described to locate the calling line lill, to seize the selector circuit'zflll, and to switch the subscribers line loop through to the selector. Relay lZQ on operating to connect the line circuit 162 through to the selectoralso closes conductor H8 over the E. .0. (extra control) contact I08 and wiper i it by way of contacts I23 to the E. C. conductor H2 through to the selector 260. Since this call is being made during one of the busy periods of the day, the cam 350 has closed the contacts35l and ground is standing on conductor H8. This ground .is connected over the E. C. conductor to theselector and through contacts 242 and shaft springs 239 to relay 235, relay 240 being opera-ted on seizure of the selector.

The selector circuit is so arranged that only local calls will be restricted while toll calls will be unrestricted. This is accomplished by providing the selector switch mechanism with shaft springs 233, the switch mechanism being designed so that the shaft springs 239 will operate to open their contacts only on levels in which toll switches terminate, the shaft springs 233 remaining unoperated on all levels in which succeeding switches for use in making local calls terminate. Relay 235 operates from the ground on the E. C. conductor and opens the ground from relay 2E3 at contacts 236 and also prepares a circuit from the special tone conductor 2H to the +side of the line at contacts 231. In response to the first digit dialled by the calling subscriber, the selector mechanism steps to the level designated by the first digit. If the first digit indicates a local call, the shaft springs 239 will remain unoperated after the firs-t digit has been dialled. The rotary magnet will then operate self-interrupted to rotate the switch wipers over the bank level selected by the first digit. Since relay 235 has opened one side of relay 210 at contacts 236, relay 2!!) will never operate even though the switch wipers encounter an idle succeeding switch. The switch wipers will step to the 11th rotary position at which time the cam springs 210 will operate, Operation of the cam springs closes a circuit from ground through contacts 245, H2, 228 and 212 to the upper winding of relay 250, opens the time pulse conductor 215 from the upper winding of relay 230 at contacts 27!, and closes the special tone that is connected to the special tone conductor 217 to the +side of the line by way of contacts 23! and 213 and the lower winding of relay 230. This special tone is used to indicate to the calling subscriber that his call has been prevented from being completed. Relay 250 operates through its upper winding and subsequent operations of the selector circuit and the finder circuit in releasing after the calling party has hung up are similar to those previously described.

If this call is a toll call, the shaft springs 239 will operate when the switch mechanism shaft has reached the toll level in response to the first digit dialled by the calling subscriber. Operation of the shaft springs 233 opens the circuit to relay 235 which restores to close ground to relay H0. The selector circuit will now hunt in the rotary direction for an idle succeeding switch and relay 2 l will operate when an idle trunk is found, subsequent operation of the selector and the finder being the same as described for a call from an unrestricted line.

As described, the selector 2% of Fig. 2 provides that local calls from the restricted lines during the normally busy periods of the day are prevented while toll calls from the same lines during the same periods are not prevented. This feature was provided by using normal post or shaft springs. These normal post springs maybe thought undesirable if only inter-oifice calls are to be prevented because there may be many selectors and only a relatively few inter-office trunks. For this reason, Fig. 3 has been included to show how restriction of calls may be accomplished in inter-oflice repeaters rather than in first selectors. Referring to Figs. 1, 3 and 3A to 3D inclusive, the finder H30 operates in a manner exactly similar to that previously described to locate a calling subscriber's line 101 and 103- 10* Operation of relay I60 closes the line loop to seize the selector circuit 305. The selector 30 5 responds to the first dialled digit from the calling subscribers dialing device to select an outlet which terminates in the bank of the selector circuit. Assuming that the call is not an interoiiice call, it will be completed in a well-known manner and unrestricted in any way. But if the call is an inter-o ifice call, the selector 335 will seize an idle inter-onice repeater circuit such as repeater 333, the repeater circuit being marked idle on the banks of the selector by the presence of resistance battery through contacts 343 and 333 on the C bank contact 3l2. On seizure, the line loop is closed over the line wipers 333 and 337 to the two windings of relay 330 by way of contacts 32! and 323. Relay 33!] operates, closes the circuit to relay 333 at contacts 332 and closes a line-loop through the right-hand operating winding of polar relay 323 by way of contacts 33| over the +T and T leads to seize the succeeding switch. Relay 333 operates, closes the lefthand polar winding of relay 320 at contacts 334, grounds the 0 lead back to the preceding switch train at contacts 335, and closes the E. C. conductor to relay 343 at contacts 33?.

Assuming this call is being made from an unrestricted line such as line I03, ground will not be standing on the E. C. lead and relay 343 will remain unoperated. The ground on the C lead at contacts 335 holds both the selector 335 and the finder I00 under control of the repeater 300, the repeater 333 in turn being held over the line by the calling subscriber B. This ground on the C contact 3 i2 also marks this repeater as busy in the banks of the preceding group of selectors. The well-known polar relay 323 will not operate on the strength of its polar winding alone and will not operate until the battery on the line conductors +1 and T is reversed on answer by the called party. Relay 333 follows the remaining series of impulses from the calling subscribers dialing device and, at contacts 33l, opens and closes line loop to complete the succeeding switch train to the called line. Relay 333, due to its slow release characteristics, will remain operated during impulsing. When the called party answers, battery is reversed back on the line condoctors 'I' and +T in a, well-known manner to operate polar relay 323. Operation of relay 320 reverses the battery through relay 333 on the line conductors back to the calling line at contacts 322 and 323 for the purpose of metering, supervision, etc. if provided.

When the calling party releases, the line loop is opened to release relay 333. Relay 333 on releasing opens the line loop at contacts 33! to release the succeeding switch train and opens relay 333. Relay 333 restores and removes the ground from the C conductor at contacts 335 to release the preceding selector 335 and finder I63 which then return to normal.

Assuming that the inter-oiiice call is being made from a line which is subject to restricted service such as line Hill and that the call is being made during one of the normally busy periods of the day, ground will be standing on the E. C. conductor from contacts 351 in Fig. 3A through the selector 335 to wiper 333. When relay 333 operates on seizure of the repeater circuit 303, this ground on the E. C. conductor is closed to relay 343 at contacts 33?. Relay 363 operates, opens the circuit to relay 333 at contacts 322 and closes special tone at contacts 3M to inform the callin party that the. call is being prevented,

Relay 333 releases, opens the polar Winding of relay 328 at contacts 33%, opens the circuit to relay 3% at contacts 33?, and removes ground from the C lead at contacts 335 to cause the preceding switches to release and return to normal. Relay 346 releases and closes resistance battery to the C bank contact 312 to mark this circuit as idle in the selector banks. The circuit to relay 3% from the E. C. lead is taken through break contact 325 of relay 32s so that if a subscriber who is subject to restricted service has made a call during a non-restricted period and has received an answer, he will not be released when the restricted period starts.

Having particularly described the operation of the finder I00, the selector 208 and the repeater 3% in association with Fig. 3A, I will now describe how Figs. 3B, 3C, and 3D may supplant Fig. 3A in the system. A control circuit shown in Fig. 4 is used to ground leads 35s and 365% at diiierent times to perform certain functions in conjunction with the control devices Figs. 33, 3C and 3D, and a brief description of how Fig. 4 is operated to transfer ground between leads 3% and 3% will be given after the operations of the control devices have been described.

Fig. 33 provides a means for giving restricted service during the normally busy periods of the day but then only when an operator desires to render the restrictive equipment operative or only when actual heavy traflic conditions warrant restriction of calls. This circuit is also designed so that once the restriction equipment has been started during the predetermined normally busy period of time, it will continue until the end of such period regardless of the subsequent actions of the operator or actual conditions of the traffic. Cam 355 is similar in actions to cam 356; it closes its contacts 356 and 351 during predetermined busy times of the day. However, lead H8 is not grounded to cause line iii! to be subjected to restricted service until relay 352 has been operated. Relay 352 can be operated by the operation of relay 358 or the grounding of lead 3%. relay which automatically operates when the exchange traiilc becomes excessively heavy as indicated by well-known all trunks busy circuits, etc. Lead 363 is under the control of an operator and is grounded when she desires to ground the same. In either instance, relay 352 will operate and will lock up under control of the earn 355 by way of contacts 354 and 35's independent of relay 358 or the distant operator. Relay 352 will also close ground at contacts 355 to lead H8 to subject line It! to restricted service as previously described, this restricted service remaining until the end of the normally busy period when cam 355 causes contacts 35'! and 356 to open.

Fig. 30 provides means for giving restricted service only during the predetermined normally busy period of the day which may be rendered inoperative at any time during that predetermined period at the discretion of an operator. Cam 356' is similar to cam 359 and closes contacts 36! during preselected periods of the day. Contacts 3M close the ground standing on lead 365 by way of contacts Us to lead H8 to subject line it! to restricted service. Ground remains connected at contacts ll i until such times as the operator shall cause operation of relay did to open contacts lll' i. Relay Mil is under com-- plete control or an operator and it can easily be seen that during the normally busy period of Relay 358 is a traffic responsive 12 the day, the operator may cause restricted service to be effective or not as she desires.

Fig. 313 provides means for giving restricted service during the normally busy period or" the day in all instances and for also allowing an operator to render restricted service operative at any other period in the day. Ground will be closed to lead H8 during the normally busy periods of the day thru contacts and 14 or thru contacts M5 depending on whether or not relay tie is operated. During all other periods of the day, the operator may cause restriction of calls to take place by causing operation of relay m and subsequent closing of contacts 15.

The control circuit to i is designed to give an operator automatic control over the timing devices. Only the operations of Fig. a needed to explain its control over the devices 313 to 3D will be described, other features of the control circuit being unnecessary to this invention. This control circuit may be seized by an operator over the line leads +L and L by closing a line loop to relay sit. Relay H O'operates and closes relay i I 5. Relay :8 i 5. operates and prepares the pulsing circuit to the stepping magnet 66 of the rotary switch 539. Assuming that relay 4'56 is in the uncperated position, therefore ground being connected to conductor 3 55 at contacts 116, and that the operator desires to operate relay 3'!!! so as to transfer the ground potential from conductor 355 to conductor 384, the operator. sends a series of nine impulses over the line loop. Relay iit follows the series of impulses, releasing and reoperatingnine times, and repeats the impulses to the minor switch stepping magnet 6 51' by way of contacts ll'll; M3 and. M2. Slow-release relay iiii remains operated during pulsing. On the first closure of contacts l! i, relay 435 operates thru its lower winding in parallel with the stepping magnet MI and remains operated for the remaining pulses due to its slow-release characteristics. On the first step oil" normal by the minor switch still, the off-normal springs 465 operate to cause operation of relay 430. Relay 53c prepares a circuit to the lower winding of relay 2% at contacts ass and closes a part of the circuit to the minor switch release magnet 362 at contacts 533. At the end of the series of impulses, the minor switch has stepped to the I ninth bank contact and relay Mt remains steadily operated. Slow-release relay 235 releases shortly thereafter. A circuit is then closed from ground by way of contacts M6, 655, 436, wiper 363, ninth bank contact and upper winding of' relay Lilii. Relay 578 is a differential relay designed so that it will operate and hold operated on either of its windings alone but will release when both windings are closed simultaneously. Relay ziiii operates and closes a holding circuit to its upper winding at contacts ill, prepares a circuit to its lower winding by way of the tenth bank contact at contacts 512, and transfers ground from conductor 365 to conductor 3% at contacts 314 and M5. The release of relay 435' after the series of impulses also closes the lower winding of relay 4% by way of contacts 4E2, 432, 38, and ass. Relay i-lil operates, locks up to ground on the C lead sent forward from the preceding equipment and opens the pulsing ci'r cuit from relay ll?! to the stepping magnet 56] at contacts 552' to prevent subsequent false operation of the stepping magnet iti.

Relay tic now being operated, the operator may release the connection leaving relay ilfl locked up. Release by the operator opens the line loop to relay M and removes ground from the 0 lead. Belay Mil releases, opens relay M5, and closes the circuit to the release magnet 562 by way of contacts ll l, MS, and 433. Relay Md releases. The release magnet M52 operates to return the minor switch 460 to normal. In the normal position, relay 43d releases and opens the release magnet circuit. Relay llil remains operated, holding ground. on lead 364 until such time as the operator desires to transfer the ground from lead 3% to lead 355.

A means is provided in the control circuit for allowing the operator to check to see if relay did is in the operated position. She does this by seizing Fig. l over the line and dialing the digit nine. Ground standing on the ninth bank contact from contact ll! causes operation of relay 45E! before relay are releases after dialing. Operation of relay M553 closes a special tone on the +N lead to the operator over the +L lead to inform her that the relay 419 is operated.

When the operator desires to release relay 470, she seizes the control circuit over the line leads +L and L and sends ten impulses over the line. The minor switch wipers take ten steps and close the circuit to the lower winding of relay ile. The two windings of relay i'iil now being closed simultaneously cause relay All? to release and transfer the ground from lead 364 to lead 355. The operator may thus control the application of restricted service.

Having described a preferred embodiment of the invention, it is to be understood that various modifications may be made therein, and the appended claims are intended to cover all such modifications as fall within the true spirit and scope of the invention.

What is claimed is:

1. In a telephone system, a calling line, means for establishing a connection from said calling line, disabling means operative to disable said means to thereby prevent said calling line from establishing a connection, a clock device running in accordance with the time of the day, traflic responsive means controlled by trailic conditions in the system, a control device for operating said disabling means, and two contacts jointly controlling said control device, one of said contacts being governed by said traffic responsive means for actuating said control device upon the occurrence of a certain traffic condition and the other contact being a holding contact governed by said clock device for independently locking said control device in actuated condition until the end of a certain period of the day regardless of the continued existence of said traffic condition.

2. In a telephone system, a plurality of lines including lines of a restricted and a non-restricted class, switching equipment, a clock device running in accordance with the time of the day, a non-numerical switch, said non numerical switch being interposed between said lines and said switching equipment and being automatically positioned upon the initiation of a connection on one or" said lines to interconnect said line and said equipment, and said switching equipment being directively operated under the con-- trol of said line for further extending said connection, disabling means in said switching equipment, first contact means associated with and actuated by said clock device, and second contact means associated with and actuated in accordance with the positioning of said nonnumerical switch, both contact means being in circuit connection with and controlling said dis. abling means, but the circuit connections of said contact means differing as between lines of the restricted and non-restricted class, and said disabling means being made effective over the circuit connections pertaining to lines of the restricted class, in response to both said contact means being concurrently in actuated condition for preventing the extension of a connection by said switching equipment.

3. In a telephone system, the combination as defined in claim 2, and further including a contact device connected in series with said first contact means, said contact device being operative under the control of an operator for preventing said disabling means from becoming effective regardless of the concurrent actuation of said first and second contact means.

4.. In a telephone system, the combination as defined in claim 2, and further including an operator-controlled contact device in circuit connection with said disabling means independently of said first contact means, said disabling means also being made effective over the circuit connection pertaining to lines of the restricted class, in response to both said contact device and said second contact means being concurrently in actuated condition for preventing the extension of a connection.

5. In a telephone system, a plurality of lines including restricted and non-restricted lines, switching equipment directively operated under the control of a given one of said lines for extending a connection originated on said line, a clock device running in accordance with the time of the day, a non-numerical switch interposed between said line and said switching equipment, disabling means in said switching equipment for preventing at certain times of the day, the extension of a connection from a restricted line, a circuit for making said disabling means effective, said circuit including in series relation first and second contact means respectvely associated with said clock device and said non-numerical switch, said first contact means being actuated by said clock device for closing one point of said circuit and said second contact means being connected in the case of restricted lines only, to said first contact means and being actuated under the control of said non-numerical switch for closing another point of said circuit.

6. In a telephone system, a plurality of lines including lines of a restricted and a nonrestricted class, switching equipment, a clock device running in accordance with the time of the day, a non-numerical switch, said non-numerical switch being interposed between said lines and said switching equipment and being automatically positioned upon the initiation of a connection on one of said lines to interconnect said line and said equipment, and said switching equipment being selectively operated under the control or said line for further extending said connection in one of a plurality of trafiic directions, disabling means in said switching equipment, first contact means associated with and actuated by said clock device, second contact means associated with and actuated in accordance with the positioning of said non-numerical switch and third contact means associated with and actuated in accordance with the selection by said switching equipment of a predetermined traffic direction, all three contact means being in circuit connection with and controlling said disabling means, but the circuit connections 01. at

least some of said contact means differing as between lines or the restricted and non-restricted class, and said disabling means being made effective over the circuit connections pertaining to lines of the restricted class, in response to all three contact means being concurrently in actuated condition for preventing the extension or" a connection by said switching equipment.

7. In a telephone system, the combination as defined in claim 6, and further including traffic responsive means, and a contact associated with the last-mentioned means and connected in series with said first contact means, said contact being actuated under the control of said trafiic responsive means for preventing said disabling means from becoming effective upon the concurrent actuation of said first, second and third contact means except when said contact also is actuated.

8. In a telephone system, the combination as defined in claim 6, and further including a contact device connected in series with said first contact means, said contact device being operative under the control of an operator for preventing said disabling means from becoming effective regardless of the concurrent actuation of said first, second and third contact means.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,238,130 Goodrum Aug. 28, 1917 1,578,185 Harper July 24, 1928 1,694,169 Friendly Dec. 4, 1928 1,694,934 Babcock Dec. 11, 1928 2,375,066 Avery May 1, 1945 2,385,061 Clark Sept. 18, 1945 

